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Increasing the magnification of a microscope typically decreases the working distance, or the distance between the objective lens and the specimen. Higher magnification requires the objective lens to be closer to the specimen to achieve focus, reducing the working distance. Similarly, lower magnification allows for a greater working distance between the lens and the specimen.
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How does the working distance affect the size of objects that can be viewed under a stereo microscope?
The working distance of a stereo microscope refers to the distance between the objective lens and the specimen. A longer working distance allows for larger objects to be viewed, as there is more space between the lens and the specimen. Conversely, a shorter working distance limits the size of objects that can be viewed due to the physical constraints of the microscope's design.
How factors affect the magnification of a convex lens?
The magnification of a convex lens depends on its focal length and the object distance from the lens. Increasing the focal length or decreasing the object distance will usually increase the magnification. The magnification is also affected by the size of the object being viewed and the optical properties of the lens itself.
How does magnification and resolution affect the appearance of objects viewed under a microscope?
well, if you are trying to see something microscopic, you can look though a microscope to see it. but, if the microscope is in a very high scope, ex 1000x, you need to adjust the height of the scope using a knob on the side.
Why should oil not touch the 40X lens of a microscope?
Oil can damage the lens coating and affect the quality of the microscope image. It can also attract dust and debris, leading to contamination of the lens. Additionally, using oil with the 40X lens may distort the magnification and make it difficult to focus on the specimen.
Why shouldnt the microscope be focused by moving the objectives and the slide closer together?
A microscope should not be focused by moving the objectives and the slide closer together because it will affect the working distance. It is the optimal distance between objective lens and the upper surface of the slide.
How does the working distance affect the size of objects that can be viewed under a stereo microscope?
The working distance of a stereo microscope refers to the distance between the objective lens and the specimen. A longer working distance allows for larger objects to be viewed, as there is more space between the lens and the specimen. Conversely, a shorter working distance limits the size of objects that can be viewed due to the physical constraints of the microscope's design.
How magnification and resolution affect the appearance of objects viewed under a microscope.?
when the micerscope is next yo
How would changing the objective lenses affect what is seen through the microscope?
Changing the objective lenses on a microscope would affect the level of magnification and resolution of the images seen. Higher magnification lenses would allow for a closer view of smaller details, but may reduce the field of view and depth of field. Lower magnification lenses would provide a wider field of view but with less magnification of finer details.
How factors affect the magnification of a convex lens?
The magnification of a convex lens depends on its focal length and the object distance from the lens. Increasing the focal length or decreasing the object distance will usually increase the magnification. The magnification is also affected by the size of the object being viewed and the optical properties of the lens itself.
What determines how good a microscope is at showing small details?
The resolution of a microscope is a key factor in determining how well it can show small details. Resolution is the ability of a microscope to distinguish between two separate points in an image. Other factors that can affect the quality of the image produced by a microscope include magnification, lens quality, and lighting.
How does increased magnification affect the field vision?
Increasing the magnification on a light microscope will decreased the diameter of the field of view. You are essentially looking closer and closer at the objects. For example: Using your hand (thumb to fingertips), create a circle as if holding a telescope. Hold your hand-telescope up to one eye and look through it at your screen. Now, move closer to the computer screen... The size of the field you are able to see gets smaller...that's what happens with a microscope lens. As you increase the magnification, the lens gets closer to the specimen.
How does magnification and resolution affect the appearance of objects viewed under a microscope?
well, if you are trying to see something microscopic, you can look though a microscope to see it. but, if the microscope is in a very high scope, ex 1000x, you need to adjust the height of the scope using a knob on the side.
Why should oil not touch the 40X lens of a microscope?
Oil can damage the lens coating and affect the quality of the microscope image. It can also attract dust and debris, leading to contamination of the lens. Additionally, using oil with the 40X lens may distort the magnification and make it difficult to focus on the specimen.
Why shouldnt the microscope be focused by moving the objectives and the slide closer together?
A microscope should not be focused by moving the objectives and the slide closer together because it will affect the working distance. It is the optimal distance between objective lens and the upper surface of the slide.
What is the focal length of a magnifying glass and how does it affect the magnification of objects when viewed through it?
The focal length of a magnifying glass is the distance between the lens and the point where light rays converge to form a clear image. A shorter focal length results in higher magnification, making objects appear larger when viewed through the magnifying glass. Conversely, a longer focal length will result in lower magnification.
What do the lenses on a microscope do to the light as it passes through them - and how does this affect the way an object appears when the light reaches your eye?
The lenses in a microscope diffract (bend) the light as it passes through them. The effect is that an object appears clear and large (is focused and magnified) when the light reaches your eye. Also, microscope designs usually ensure that the object appears right-side-up.
Why aren't the magnificaions of both ocular lenses of a binocular microscope used to calculate total magnification?
Because each eye needs its own magnified image. Put another way: Your brain doesn't add the magnification power of the image seen on the left to the magnification power of the image seen on the right. If only one ocular was magnified, you wouldn't be able to see the magnified image in both eyes---the eye with the unmagnified image would see unmagnified and the eye with the magnified image would see magnified. Am I understanding the question correctly?
